posted on 2014-01-30, 14:45authored byKeith Case, Marcelo da Silva Hounsell
Geometric modelling techniques for computer-aided
design are provided with formal validation methods to
ensure that a valid model is made available to
applications such as interference checking. A natural
and popular extension to geometric modelling is to
group geometric entities into features that provide some
extra meaning for one or more aspects of design or
manufacture. These extra meanings are typically loosely
formulated, in which case it is not possible to validate
the feature-based model to ensure that it provides a
correct representation for a downstream activity such as
process planning. Earlier research established that
validation methods can be based on the capture of
designers' intents related to functional, relational and
volumetric aspects of component geometry. This paper
describes how this feature-based validation method has
itself been validated through it's application to a series
of test parts which have been either drawn from the
literature or created to demonstrate particular aspects. It
is shown that the prototype system that has been
developed is indeed capable of meaningful featurebased
model validation and additionally provides
extensive information that is potentially useful to a
range of engineering analysis activities.
History
School
Mechanical, Electrical and Manufacturing Engineering
Citation
CASE, K. and HOUNSELL, M.S., 1999. Evaluation of a feature modelling validation method. Maropoulos, P.G. and McGeough, J.A. (eds). Computer-aided Production Engineering: Proceedings of the 15th International CAPE Conference (CAPE 99), 19th-21st April 1999, University of Durham, pp. 15 - 22.